from artiq import * class PulseNotReceivedError(Exception): pass class TDR(EnvExperiment): """Time domain reflectometer. From ttl2 an impedance matched pulse is send onto a coax cable with an open end. pmt0 (very short stub, high impedance) also listens on the transmission line near ttl2. When the forward propagating pulse passes pmt0, the voltage is half of the logic voltage and does not register as a rising edge. Once the rising edge is reflected at an open end (same sign) and passes by pmt0 on its way back to ttl2, it is detected. Analogously, hysteresis leads to detection of the falling edge once the reflection reaches pmt0 after one round trip time. This works marginally and is just a proof of principle: it relies on hysteresis at FPGA inputs around half voltage and good impedance steps, as well as reasonably low loss cable. It does not work well for longer cables (>100 ns RTT). The default drive strength of 12 mA and 3.3 V would be ~300 Ω but it seems 40 Ω series impedance at the output matches the hysteresis of the input. This is also equivalent to a loopback tester or a delay measurement. """ def build(self): self.attr_device("core") self.attr_device("pmt0") self.attr_device("ttl2") def run(self): n = 1000 # repetitions latency = 50e-9 # calibrated latency without a transmission line pulse = 1e-6 # pulse length, larger than rtt try: self.many(n, seconds_to_mu(pulse, self.core)) except PulseNotReceivedError: print("to few edges: cable too long or wiring bad") else: print(self.t) t_rise = mu_to_seconds(self.t[0], self.core)/n - latency t_fall = mu_to_seconds(self.t[1], self.core)/n - latency - pulse print("round trip times:") print("rising: {:5g} ns, falling {:5g} ns".format( t_rise/1e-9, t_fall/1e-9)) @kernel def many(self, n, p): t = [0 for i in range(2)] self.core.break_realtime() for i in range(n): self.one(t, p) self.t = t @kernel def one(self, t, p): t0 = now_mu() with parallel: self.pmt0.gate_both_mu(2*p) self.ttl2.pulse_mu(p) for i in range(len(t)): ti = self.pmt0.timestamp_mu() if ti <= 0: raise PulseNotReceivedError t[i] += ti - t0 self.pmt0.count() # flush